Precision Drone Spreading for Modern Agriculture
Spread granular products and seeds faster, reduce input costs, eliminate crop damage, and meet critical application windows with advanced GPS-guided drone technology.
- Up to 10–19 ha/hr depending on conditions
- No soil compaction or tramlines
- Reduced input costs
- Operate in wet or difficult conditions
Access Hard to Reach Areas
Drones provide access to areas traditional equipment can’t reach.
Unlike conventional spreading systems, drones can operate in challenging terrain and confined spaces without the need for ground access. Whether it’s steep slopes, waterlogged ground, or obstructed fields, drones can be deployed quickly and safely to treat areas that would otherwise be difficult or impossible to reach, ensuring no part of the crop is left untreated.
Excellent Application and Coverage
Efficient spreading of granular products and seeds.
Drones provide accurate and consistent application of granular products, including fertilisers, pellets, and seeds. Using controlled spread rates and precise flight paths, material is distributed evenly across the target area without the limitations of ground-based equipment. This allows for fast deployment, reduced waste, and effective coverage, even in difficult terrain or sensitive crop conditions.
Precision Application
Precision application reduces waste and maximises efficiency.
Unlike traditional blanket spreading methods, drones apply granular products and seeds only where they’re needed, using accurate flight paths and controlled application rates. This targeted approach reduces overall material usage while maintaining even distribution, helping to lower input costs, minimise environmental impact, and improve crop establishment through more efficient application.
Reduced Soil Compaction
Drone application eliminates soil compaction and crop damage.
Unlike heavy ground machinery, drones operate without direct contact with the field, removing the risk of soil compaction, rutting, and trampling. This helps preserve soil structure, maintain healthy root development, and prevent unnecessary crop loss, ultimately supporting stronger yields and more consistent field conditions.